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Chapter 2: Problem 13

Translate from algebraic notation to words. \(36 \geq 19\)

Short Answer

Expert verified
Thirty-six is greater than or equal to nineteen.

Step by step solution

01

Identify the Symbols

Recognize and identify the symbols used in the given algebraic notation. Here, the notation is \(36 \geq 19\). The symbol \( \geq \) stands for 'greater than or equal to'. The numbers are '36' and '19'.
02

Translate Each Component

Convert each component of the algebraic expression to its respective word form. The number '36' remains 'thirty-six', and the number '19' remains 'nineteen'. The symbol \( \geq \) will be translated to 'is greater than or equal to'.
03

Combine the Components

Put all the translated components together in a coherent sentence. The expression \(36 \geq 19\) translates to 'Thirty-six is greater than or equal to nineteen'.

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Inequality Symbols
Inequality symbols are crucial in mathematics because they allow us to compare values. When you see symbols like <, >, ≤, and ≥, these are signs telling you if one value is smaller, larger, or at least not smaller/larger than another.

Specifically, let's dive into the symbol used in our example: \(\geq\). This symbol means 'greater than or equal to'. It shows that the number before it is either larger than or the same as the number after it.

Learning these symbols helps you understand and solve equations and inequalities in algebra. Familiarize yourself with these common symbols:
  • ‘<’ means 'less than'
  • ‘>’ means 'greater than'
  • ‘≤’ means 'less than or equal to'
  • ‘≥’ means 'greater than or equal to'

Recognizing these can vastly improve your comfort with mathematics.
Algebraic Expressions
Algebraic expressions are combinations of numbers, variables (like x or y), and mathematical operations (like addition or multiplication). In our example, the expression is simple: it involves only numbers and an inequality symbol: \(36 \geq 19\).

Understanding algebraic expressions is essential because they form the basis of many algebra problems. They can range from simple expressions with just numbers, like we have, to complex ones with multiple operations and variables.

Breaking them down into smaller parts can help you understand them better. For instance, identify each number and symbol separately before combining them.
Mathematical Translation
Mathematical translation involves converting mathematical symbols and notations into words. This skill not only helps in understanding the problem better but also in communicating mathematical ideas more effectively.

Let's look at our example: \(36 \geq 19\).
  • We first identify the numbers involved: 36 (thirty-six) and 19 (nineteen).
  • Next, we recognize the symbol \(\geq\), which means 'greater than or equal to'.
  • Finally, we put it all together: 'Thirty-six is greater than or equal to nineteen'.

Translating mathematical expressions into words can be a great way to check your understanding and verify your work. Practice by taking different equations and expressions and turning them into sentences. This process makes complex problems seem more straightforward.

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Most popular questions from this chapter

In the following exercises, use the divisibility tests to determine whether each number is divisible by 2, 3, 4, 5, 6, and 10. $$ 1080 $$

In the following exercises, determine whether each given value is a solution to the equation. $$ \begin{array}{l}{ 7 v-3=4 v+36} \\ {\text { (a) } v=3 \quad \text { (b) } v=11}\end{array} $$

In the following exercises, evaluate each expression. $$ y^{3} \text { when } y=5 $$

In the following exercises, identify the terms in each expression. $$ 4 x^{3}+11 x+3 $$

In the following exercises, find the prime factorization of each number using any method. $$ 350 $$
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